CN114129884B - Quantitative medicine applying device based on postoperative recovery - Google Patents

Abstract

The invention discloses a quantitative drug administration device based on postoperative recovery, and relates to the technical field of postoperative recovery. The quantitative discharging device comprises a quantitative barrel, a cylindrical discharging shell and a distributing disc, wherein an imbedding pipe is fixed at the bottom end of the quantitative barrel through a connecting pipe, a discharging pipe is fixed at the outer side of the imbedding pipe, a pipe cover is arranged at the end part of the discharging pipe, an inner shell concentric with the discharging shell is fixed in the discharging shell, a group of limiting edges are fixed on the inner wall of the discharging shell, the distributing disc is rotatably arranged among the inner shell, the discharging shell and the group of limiting edges, a pushing shell is fixed in the inner shell, and an opening is formed in the position, communicated with the pushing shell, of the inner shell. The invention carries out the quantification and control of the total medicine amount through the quantifying barrel, and the novel discharging shell is designed to divide the total medicine powder amount into a plurality of small medicine powder to be sprayed out in sequence, thereby being beneficial to the uniform and effective medicine application of a user to a wound and avoiding the problems of medicine waste or bad wound healing caused by too much or too little medicine amount.

Description

Quantitative medicine applying device based on postoperative recovery

Technical Field

The invention belongs to the technical field of postoperative recovery, and particularly relates to a quantitative medicine applying device based on postoperative recovery.

Background

The shape and the size of a general postoperative wound are irregular, the uniformity of the medicine output amount cannot be effectively controlled no matter the traditional medicine sprayer is manual or electric, (the once medicine output amount of the manual medicine sprayer is controlled by pressing force, the pressing force is not easy to control, the electric medicine sprayer is pushed out by an air cylinder or an air pump, the medicine output amount can be influenced by the flowing rate of medicine powder or the total amount of medicine), if more medicine is arranged on part of the wound, the medicine is wasted, and if the medicine amount is less, the treatment effect is influenced, and the medicine sprayer is unfavorable for the use of a user.

Disclosure of Invention

The invention aims to provide a quantitative medicine applying device based on postoperative recovery, which is characterized in that the total medicine amount is quantified and controlled through a quantitative barrel, and the total medicine powder amount can be divided into a plurality of small parts of medicine powder to be sprayed out sequentially through designing a novel discharging shell, so that a user can apply medicine uniformly and effectively to a wound, and the problems of medicine waste or bad wound healing caused by too much or too little medicine amount are avoided.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a quantitative medicine applying device based on postoperative recovery, which comprises a quantitative barrel, a cylindrical discharging shell and a distributing disc, wherein the quantitative barrel is arranged on the cylindrical discharging shell;

the bottom end of the quantitative barrel is fixedly provided with an imbedding pipe through a connecting pipe, the outer side of the imbedding pipe is fixedly provided with a discharging pipe, and the end part of the discharging pipe is provided with a pipe cover;

an inner shell concentric with the discharge shell is fixed in the discharge shell, a group of limiting edges are fixed on the inner wall of the discharge shell, and the material distributing disc is rotatably arranged among the inner shell, the discharge shell and the group of limiting edges;

a pushing shell is fixed in the inner shell, an opening is formed in the position, communicated with the pushing shell, of the inner shell, an air cylinder is fixed in the pushing shell, a piston body is fixed at the output end of the air cylinder, and the piston body is arranged in the pushing shell in a sliding manner;

a plurality of material storage openings are uniformly formed in the material distribution plate, one side of the material distribution plate is provided with an edge, and a gear ring is fixed in the edge;

a motor is fixed in the inner shell, a gear is fixed at the output end of the motor, and the gear is meshed with the gear ring;

the discharging shell is characterized in that a feeding opening and a discharging opening are fixed on the peripheral side face of the discharging shell, one end of the imbedding tube is fixed with the feeding opening, the piston body faces the discharging opening, a medicine outlet tube communicated with the discharging opening is fixed outside the discharging shell, and a valve is arranged at the joint of the medicine outlet tube and the discharging shell.

Further, the automatic quantitative discharging device further comprises a control shell, the control shell is fixed on the outer sides of the quantitative barrel and the discharging shell through a support, a storage battery and a controller are fixed in the control shell, and the motor and the air cylinder are electrically connected with the controller through external wiring.

Further, the top end of the quantitative barrel is clamped with a cover body, a micro air pump is fixed at the axis of the top of the cover body, and the micro air pump is electrically connected with the controller through a wire.

Further, a telescopic tube is fixed between the miniature air pump and the control shell, and the lead is arranged in the telescopic tube.

Further, the side face of the circumference of the top end of the quantitative barrel is provided with an annular clamping groove, the end part of the cover body is provided with a plurality of notches, a group of annular clamping edges are fixed on the cover body, and the annular clamping edges are arranged on the cover body between the two notches.

Further, the annular clamping edge is in clearance fit with the annular clamping groove, the cross section of the annular clamping edge is of a right trapezoid structure, and the inclined surface of the annular clamping edge is far away from the cover body.

Further, the support includes arc seat and L shaped plate body, be equipped with the gusset plate between L shaped plate body and the arc seat, the control shell is fixed in the L shaped plate body, the arc seat is fixed in the row material shell outside, be fixed with the connecting seat between L shaped plate body and the ration bucket.

Further, an outer connecting pipe is fixed on the outer side of the pushing shell, and one end of the outer connecting pipe penetrates through an end plate on the discharging shell.

Further, a handshake groove is formed in one opposite side of the control shell, and the handshake groove is a strip-shaped groove or a kidney-shaped groove.

Further, the ration bucket is transparent staving structure, the ration bucket outside is equipped with the scale and marks, the scale marks the setting and is kept away from the one side of control shell at the ration bucket.

The invention has the following beneficial effects:

1. the invention carries out the ration and control of the total medicine quantity through the ration barrel, and the novel discharging shell is designed to divide the total medicine powder quantity into a plurality of small medicine powder to be sprayed out in sequence, thereby being beneficial to the uniform and effective medicine application of a user to a wound, being beneficial to the use of the user, ensuring the medicine application effect, and avoiding the problems of medicine waste or bad wound healing caused by too much or too little medicine quantity.

2. According to the invention, the pushing shell, the air cylinder and the piston body are arranged in the inner shell, so that air pressure can be provided during medicine discharge, medicine can be sprayed out timely and rapidly, the medicine is beneficial to use, and meanwhile, the external connection pipe connected with the outside is arranged on the pushing shell, so that the constant pressure in the pushing shell can be ensured at any time, and the normal use of the piston body is ensured.

3. According to the invention, the cover body easy to disassemble and assemble is arranged at the top end of the quantitative barrel, and the miniature air pump capable of supplying air is arranged on the cover body, so that certain pressure can be applied to the quantitative barrel, the medicine powder in the quantitative barrel can be rapidly and effectively discharged into the material storage opening, and the consistency of the spraying amount of each time is ensured.

4. According to the invention, the control shell is arranged, the storage battery and the controller are arranged, the motor, the air cylinder and the miniature air pump are connected with the controller, so that automatic spraying can be programmed, and the pesticide application efficiency can be improved.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of a quantitative dispensing device based on postoperative recovery according to the present invention;

FIG. 2 is a schematic view of the structure of the dosing barrel, the bracket, the control housing and the cover;

FIG. 3 is a cross-sectional view of the structure of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a schematic view of the structure of the tray and the discharge casing with one end cap removed;

FIG. 6 is a schematic view of the structure of the discharge casing with one end cap removed;

FIG. 7 is a schematic view of a structure of a tray;

in the drawings, the list of components represented by the various numbers is as follows:

1-quantitative barrel, 2-discharge shell, 3-distributing tray, 4-control shell, 5-bracket, 6-cover, 101-connecting tube, 102-placing tube, 103-discharge tube, 104-tube cover, 105-annular clamping groove, 201-inner shell, 202-limit edge, 203-pushing shell, 204-opening, 205-cylinder, 206-piston body, 207-motor, 208-gear, 209-feeding port, 210-discharging port, 211-medicine outlet tube, 212-valve, 213-external wiring, 214-external connecting tube, 301-storage port, 302-edge, 303-gear ring, 401-storage battery, 402-controller, 403-telescopic tube, 404-holding groove, 501-arc seat, 502-L-shaped plate, 503-reinforcing plate, 504-connecting seat, 601-miniature air pump, 602-wire, 603-annular clamping edge and 604-notch.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the invention discloses a quantitative drug application device based on postoperative recovery, which comprises a quantitative barrel 1, a cylindrical discharge shell 2 and a distribution disc 3;

the bottom end of the quantitative barrel 1 is fixed with an imbedding pipe 102 through a connecting pipe 101, a discharging pipe 103 is fixed on the outer side of the imbedding pipe 102, and a pipe cover 104 is arranged at the end part of the discharging pipe 103;

an inner shell 201 concentric with the discharge shell 2 is fixed in the discharge shell 2, a group of limiting edges 202 are fixed on the inner wall of the discharge shell 2, and the material distributing disc 3 is rotatably arranged among the inner shell 201, the discharge shell 2 and the group of limiting edges 202;

a pushing shell 203 is fixed in the inner shell 201, an opening 204 is formed in the position, which is communicated with the pushing shell 203, of the inner shell 201, a cylinder 205 is fixed in the pushing shell 203, a piston body 206 is fixed at the output end of the cylinder 205, and the piston body 206 is arranged in the pushing shell 203 in a sliding manner;

a plurality of material storage openings 301 are uniformly formed in the material distribution plate 3, one side of the material distribution plate 3 is provided with an edge 302, and a gear ring 303 is fixed in the edge 302;

a motor 207 is fixed in the inner shell 201, a gear 208 is fixed at the output end of the motor 207, and the gear 208 is meshed with the gear ring 303;

the discharge shell 2 is fixed with feed inlet 209 and feed opening 210 in week side, and insert tube 102 one end and feed inlet 209 are fixed, and piston body 206 is towards feed opening 210, and discharge shell 2 outside is fixed with the play pencil 211 that communicates with feed opening 210, goes out pencil 211 and discharge shell 2 junction and is equipped with valve 212.

As shown in fig. 1-3, the quantitative barrel comprises a quantitative barrel body and a discharging shell 2, wherein the quantitative barrel body further comprises a control shell 4, the control shell 4 is fixed on the outer sides of the quantitative barrel body 1 and the discharging shell 2 through a bracket 5, a storage battery 401 and a controller 402 are fixed in the control shell 4, and a motor 207 and a cylinder 205 are electrically connected with the controller 402 through external wiring 213;

a switch is provided outside the control case 4 for switch control, and a terminal may be provided for charging of the storage battery 401.

As shown in fig. 1-3, the top end of the quantifying barrel 1 is clamped with a cover 6, a micro air pump 601 is fixed at the axial center of the top of the cover 6, and the micro air pump 601 is electrically connected with the controller 402 through a wire 602.

As shown in fig. 1-3, a telescopic tube 403 is fixed between the micro air pump 601 and the control housing 4, and a wire 602 is disposed in the telescopic tube 403.

As shown in fig. 1-4, an annular clamping groove 105 is formed in the peripheral side surface of the top end of the quantifying barrel 1, a plurality of notches 604 are formed in the end portion of the cover body 6, a group of annular clamping edges 603 are fixed on the cover body 6, and the annular clamping edges 603 are arranged on the cover body 6 between the two notches 604.

As shown in fig. 2-3, the annular clamping edge 603 is in clearance fit with the annular clamping groove 105, the cross section of the annular clamping edge 603 is in a right trapezoid structure, and the inclined surface of the annular clamping edge 603 is far away from the cover body 6.

As shown in fig. 1-3, the bracket 5 includes an arc-shaped base 501 and an L-shaped plate body 502, a reinforcing plate 503 is disposed between the L-shaped plate body 502 and the arc-shaped base 501, the control shell 4 is fixed in the L-shaped plate body 502, the arc-shaped base 501 is fixed on the outer side of the discharge shell 2, and a connecting base 504 is fixed between the L-shaped plate body 502 and the quantitative barrel 1.

As shown in fig. 3 and fig. 5-6, an external connection pipe 214 is fixed on the outer side of the pushing shell 203, and one end of the external connection pipe 214 penetrates through an end plate on the discharging shell 2.

As shown in fig. 1-2, a handshake slot 404 is formed on one opposite side of the control housing 4, and the handshake slot 404 is a bar-shaped slot or a kidney-shaped slot.

Wherein, quantitative barrel 1 is transparent staving structure, and quantitative barrel 1 outside is equipped with the scale and marks, and the scale marks sets up in quantitative barrel 1 one side of keeping away from control shell 4.

The working principle of the invention is as follows:

the SS01 is used for placing the powder into the quantitative barrel 1 through the top end of the quantitative barrel 1, determining the powder amount through scale marks, and when the powder amount is excessive, twisting the pipe end 104, and discharging the excessive powder through the discharge pipe 103;

after the control of the SS02 powder amount is finished, the cover body 6 is clamped and fixed at the top end of the quantitative barrel 1, and at the moment, part of the powder is transferred to a material storage opening 301 on the material distribution disc 3 along with gravity;

the SS03 presses on a switch outside the control shell 4 to control the motor 207 to rotate, the motor 207 stops running when the motor 207 rotates by an angle between the two material storage ports 301 each time, and at this time, one material storage port 301 adjacent to the material storage port 301 in the SS02 is opposite to the material inlet 209;

the SS04 controls the micro air pump 601 to supply air in the space of the material storage opening 301 to the quantitative barrel 1, applies certain pressure to the quantitative barrel 1, and ensures that the medicinal powder is effectively placed in the material storage opening 301 opposite to the material inlet 209;

after the motor 207 rotates for a certain number of times, the storage port 301 in the SS02 rotates to a position opposite to the blanking port 210, at this time, the control cylinder 205 stretches out, pressure is supplied into the storage port 301 through the piston body 206, powder is driven to be ejected, and the control cylinder 205 is reset after the powder is ejected;

each time SS06 subsequent motor 207 rotates, cylinder 205 is controlled to extend once, so that a certain amount of powder can be ejected in sequence.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (9)

1. Quantitative medicine application device based on postoperative resumes, its characterized in that: comprises a quantitative barrel (1), a cylindrical discharging shell (2) and a distributing disc (3);

an imbedding pipe (102) is fixed at the bottom end of the quantitative barrel (1) through a connecting pipe (101), a discharging pipe (103) is fixed at the outer side of the imbedding pipe (102), and a pipe cover (104) is arranged at the end part of the discharging pipe (103);

an inner shell (201) concentric with the discharge shell (2) is fixed in the discharge shell (2), a group of limiting edges (202) are fixed on the inner wall of the discharge shell (2), and the material distributing disc (3) is rotatably arranged among the inner shell (201), the discharge shell (2) and the group of limiting edges (202);

a pushing shell (203) is fixed in the inner shell (201), an opening (204) is formed in the position, communicated with the pushing shell (203), of the inner shell (201), an air cylinder (205) is fixed in the pushing shell (203), a piston body (206) is fixed at the output end of the air cylinder (205), and the piston body (206) is arranged in the pushing shell (203) in a sliding mode;

a plurality of material storage openings (301) are uniformly formed in the material distribution disc (3), an edge (302) is arranged on one side of the material distribution disc (3), and a gear ring (303) is fixed in the edge (302);

a motor (207) is fixed in the inner shell (201), a gear (208) is fixed at the output end of the motor (207), and the gear (208) is meshed with the gear ring (303);

a feeding hole (209) and a discharging hole (210) are fixed on the peripheral side surface of the discharging shell (2), one end of the placing tube (102) is fixed with the feeding hole (209), the piston body (206) faces the discharging hole (210), a medicine outlet tube (211) communicated with the discharging hole (210) is fixed outside the discharging shell (2), and a valve (212) is arranged at the joint of the medicine outlet tube (211) and the discharging shell (2);

the automatic quantitative discharging device is characterized by further comprising a control shell (4), wherein the control shell (4) is fixed on the outer side of the quantitative barrel (1) and the outer side of the discharging shell (2) through a support (5), a storage battery (401) and a controller (402) are fixed in the control shell (4), the motor (207) and the air cylinder (205) are electrically connected with the controller (402) through external wiring (213), the motor (207) is controlled to intermittently rotate through the controller (402), the motor (207) is stopped at an angle between two material storage ports (301) every time when the motor (207) rotates, the material storage ports (301) are opposite to the material discharging ports (210) during the intermittent period of the motor (207), and the air cylinder (205) is controlled to extend and reset through the controller (402), and medicine powder in the material storage ports (301) is sprayed out of the material discharging ports (210) through the extension of the air cylinder (205).

2. The quantitative drug administration device based on postoperative recovery of claim 1, wherein a cover body (6) is clamped at the top end of the quantitative barrel (1), a micro air pump (601) is fixed at the axis of the top of the cover body (6), and the micro air pump (601) is electrically connected with a controller (402) through a wire (602).

3. A quantitative dosing device based on postoperative recovery according to claim 2, characterized in that a telescopic tube (403) is fixed between the micro air pump (601) and the control housing (4), and the wire (602) is arranged in the telescopic tube (403).

4. The quantitative drug administration device based on postoperative recovery according to claim 2, wherein an annular clamping groove (105) is formed in the peripheral side face of the top end of the quantitative barrel (1), a plurality of notches (604) are formed in the end portion of the cover body (6), a group of annular clamping edges (603) are fixed on the cover body (6), and the annular clamping edges (603) are arranged on the cover body (6) between the two notches (604).

5. The quantitative drug delivery device based on postoperative recovery according to claim 4, wherein the annular clamping edge (603) is in clearance fit with the annular clamping groove (105), the cross section of the annular clamping edge (603) is of a right trapezoid structure, and the inclined surface of the annular clamping edge (603) is far away from the cover body (6).

6. The quantitative drug delivery device based on postoperative recovery according to claim 1, wherein the bracket (5) comprises an arc-shaped base (501) and an L-shaped plate body (502), a reinforcing plate (503) is arranged between the L-shaped plate body (502) and the arc-shaped base (501), the control shell (4) is fixed in the L-shaped plate body (502), the arc-shaped base (501) is fixed on the outer side of the discharge shell (2), and a connecting seat (504) is fixed between the L-shaped plate body (502) and the quantitative barrel (1).

7. The quantitative drug delivery device based on postoperative recovery according to claim 1, wherein an external connection tube (214) is fixed on the outer side of the pushing shell (203), and one end of the external connection tube (214) penetrates through an end plate on the discharging shell (2).

8. The quantitative drug administration device based on postoperative recovery according to claim 1, wherein a handshake groove (404) is formed on one opposite side of the control shell (4), and the handshake groove (404) is a bar-shaped groove or a kidney-shaped groove.

9. The quantitative drug administration device based on postoperative recovery according to claim 1, wherein the quantitative barrel (1) is of a transparent barrel body structure, a scale mark is arranged on the outer side of the quantitative barrel (1), and the scale mark is arranged on one side, far away from the control shell (4), of the quantitative barrel (1).